i think first one should find out the series resistance that is R1+R2+R3 and after that parellel resistance that is 1/R1+1/R2+1/R3 and after that add the series resistance and parellel resistance to get the total resistance
Yes
In a series circuit, the voltage is divided among the components, so the highest voltage is at the beginning of the circuit. In a parallel circuit, each component receives the full voltage of the source, so the voltage is the same across all components. Therefore, the circuit with the highest voltage would be in a series circuit.
Current = (Voltage across the circuit) divided by (Total resistance of the circuit). The current is the same at every point in the series circuit.
When you have multiple loads in a series, the resistance of the loads is added together allowing very little current to flow through the circuit to power any of the loads, making for a low amperage circuit. If you have your loads in parellel, the resistance of the loads in the circuit is subtracted which allows more current to flow, making for a high amperage circuit.
When you have multiple loads in a series, the resistance of the loads is added together allowing very little current to flow through the circuit to power any of the loads, making for a low amperage circuit. If you have your loads in parellel, the resistance of the loads in the circuit is subtracted which allows more current to flow, making for a high amperage circuit.
refer your text
In a parallel circuit, each component has its own separate path to the power source. If one component fails or is removed, the other components can still receive current and operate because their circuits are not interrupted by the failure of the other component. This is different from a series circuit where the failure of one component interrupts the entire circuit.
There are four types of circuit: series, parallel, series-parallel, and complex.
Equivalent resistance of a series circuit is the sum of the resistance of all appliances. The formula is R=R1+R2+... where R is equivalent resistance, R1, R2 and so on is the resistance of the individual appliances.
In a parallel circuit, if one light fails, the other lights will continue to work independently because each branch of the circuit is separate and unaffected by the failure of one component. This is in contrast to a series circuit, where the failure of one component would cause all components to stop working.
A series circuit is actually in series, but a parallel circuit, is Parallel
series circuit